Apparatus for drying having safety and sequence controls



May 10, 1949. N. MONSARRAT 2,470,043

" APPARATUS FOR DRYING HAVING SAFETY AND SEQUENCE CONTROLS 1O Sheets-Sheet 1 Filed April 15, 1942 Ina-e12 for Nic'izoiaaMonsarz-at N. MONSARRAT APPARATUS FOR DRYING HAVING SAFETY 10 Sheets-Sheet 2 AND SEQUENCE CONTROLS Filed April 15, 1942 4o 64 u 20 66 g: m lllll IIHV 24% I88 L94 if: "i J6 280- L: .44 18a IL. :27 n .4:

, [nu-e11 tor NichoiaaMoncarrai Filed April 15, 1942 May 10, 1949. N. MONSARRAT I 7 APPARATUS FOR DRYING HAVING SAFETY AND SEQUENCE CONTROLS 1O Sheets-Sheet 3 In /8112 for Nichoias Monsarra t y TM a. a/qtzome May 10, 1949. N. MONSARRAT ING SAFETY APPARATUS FOR DRYING HAV AND SEQUENCE CONTROLS 1O Sheets-Sheet 4 Filed April 15, 1942 112 uefl tor Nfchfas Mons fttli' 1/41 to 1 12 e May 10, 1949. r N. MONSARRAT APPARATUS FOR DRYING HAVING SAFETY AND SEQUENCE CONTROLS 1O Sheets-Sheet 5 Filed April 15, 1942 k MWW fflueflt-or NichoiaaMonsarrat flftorn e3 May 10, 1949. N. MONSARRAT 2,470,043

APPARATUS FOR DRYING HAVING SAFETY AND SEQUENCE CONTROLS Filed April 15, 1942 10 SheetsSheet e b2 iffl for Nr'choiax Monsaz'ral May 10, 1949. N. MONSARRAT APPARATUS FOR DRYING HAVING SAFETY AND SEQUENCE CONTROLS 1O Sheets-Sheet '7 Filed April 15 1942 #N. Mm WON ow. com

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APPARATUS FOR DRYING HAVING SAFETY v AND SEQUENCE CONTROLS l0 Sheets-Sheet 8 Filed April 15, 1942 1 1121/1912 tor v NichoiaaMonuzrrat N. MONSARRAT APPARATUS FOR DRYING HAVING SAFETY May 10, 1949.

AND SEQUENCE CONTROLS l0 Sheets-Sheet 9 Filed April 15, 1942 110100 Mqtzuzrfat a A e/ fforng May 10, 1949.v N. MONSARRAT APPARATUS,FOR DRYING HAVING SAFETY AND SEQUENCE CONTROLS l0 Sheets-Sheet 10 Filed April 15, 1942 2111912101 021010; Mon

E a. u t form Patented May 10, 1949 APPARATUS FOR DRYING HAVING SAFETY AND SEQUENCE CONTROLS Nicholas Monsarrat, Rumford, R. 1., assignor, by mesne assignments, to Pantex Manufacturing Corporation, a corporation of Delaware Application April 15, 1942, Serial No. 439,027

" 42 Claims.

'paratus to remove residual solvent therefrom prior to pressing them in a garment pressing machine. This drying or removal of residual solvent has usually been accomplished in a socalled tumbling machine of a type having a container or basket for holding the garments, suitably agitated usually by rotating or tumbing it and passing preheated air through the garment containing basket in contact with the garments. In the prior art all sorts of 2, 3, or 4 stage methods have been employed for this purpose, and all sorts of complicated apparatus have been employed for automatically controlling the transition from stage to stage in the drying or tumbling operation.

In certain prior art structures of which I am aware, it'has been the practice to evaluate the temperature of the treated air just prior to its passage through the basket. This has proved so ineiflcient that it has been necessary to use 3 or 4 cycles in the drying method, requiring complicated apparatus for their automatic changing. In these prior art devices it has been thought necessary to keep the temperature of the air entering the container below the flashv point of the solvent employed. I have discovered that the only danger of providing an explosive mixture is when the air contains cleaning solvent after contact with the garments, and that due to the latent heat of evaporation of the solvent from the garments being treated, the temperature drops substantially 50 F., when employing a standard type of 138 F. to 140 F. fiashpoint hydrocarbon solvent as it passes through the basket and garments and that prior art tumblers have been operated at a much lower ineflicient temperature than is necessary to prevent explosion. I have further discovered that if the temperature of the treated air leaving said basket reduced by the latent heat of evaporation of cleaning solvent in said garments is evaluated and the preheating of the drying air controlled thereby there will be no danger of explosion if this temperature, which as stated is usually 50 F. less than the temperature of the air entering the basket, is kept below the flash point of the inflammable hydrocarbon solvent. I have also discovered that with this higher permissible temperature of drying air entering the basket that the drying efliciency of the device is so improved that the device will dry the garments and remove the residual solvent without danger of explosion in a short single stage treatment, thereby eliminating the necessity for the complicated apparatus formerly required in automatically changing the stages of operation of the drying tumbler in prior art structures. This is accomplished by evaluating the temperature of the air leaving the container, which is the only air which can contain the solvent and hence explode and controlling the temperature of the heating apparatus for preheating the drying air by the changes in temperature of this air containing residual solvent, thereby insuring that at the only possible danger point the temperature of the explosive mixture containing air and residual solvent is maintained at a safe temperature not. materially higher than the flash point of the solvent and hence below a predetermined inflammable level.

A further object of my invention is to provide I a suiiQl e v apparatus for so controlling the temperature of the air leaving the basket at a noninflammable level.

My invention also includes various types of novel safety devices which are preferably employed in association with the aforementioned principle. These include a switch in the control circuit for the fan and motor for rotating the tumbler which is closed only by the operation of the door bolt after the door is positively closed. They also include animproved safety feature ,which positively prevents again opening the door until the temperature is below a predetermined positively non-explosive level. They also include a switch operated by a time clock and a latching device for the door bolt which will positively prevent release of the door bolt to open the door until the basket has been agitated a sufllcient period of time to remove the solvent therefrom. As stated, this unlatching device for the door bolt is positively prevented from operating if the temperature rises above a predetermined safety level. These also include a safety signal system which will denote operation of the tumbler after the circuit is completed by closing the door bolt for anadjustable predetermined period of time regulated by a time clock, which at the temperature rises-to said dangerous level.

completion of said adjustable period of time auto; matically switches signals to indicate the completion of the operation and that it is safe to open the door and preferably in combination therewith a danger signal which is automatically operated when the temperature rises above a predetermined set level. These also include a novel type of means to flood the container with fire inhibiting fluid in the event of stoppage of the air circulating means, causing non-circulation of air through the drying tumbler, which means is also thermostatically controlled to be only effective to flood the basket with fire inhibiting fluid when the temperature rises to a dangerous inflammable level, stopping of current being ineffective to release the flooding means if the temperature is below a safe predetermined level. This last device is also preferably constructed only to operate on a lasting failure of current and includes a device which will permit momentary interruptions in the current, permitting solenoid core means energized by the current to drop temporarily insuflicient distances to actuate the flooding means so that they may be picked up by the solenoid means on the resumption of current after a temporary interruption.

Further features of my invention relate to the manner in which these improved safety devices are connected together to function inassooiation with and to complement each other.

A further object of my invention, therefore, is to provide thermostatic means in the outlet duct, the only place in which there is any danger at any time of there ever being any explosive mixture, so that when the temperature in said outlet duct rises above a predetermined level it will (a) control the temperature of the air enter? ing the tumbler, (b) indicate any danger by a signal, positively prevent the opening of the door as long as the temperature is at a dangerous level, and (d) will permit the device operated on failure of current to function to flood the tumblerwith a fire inhibiting fluid when the It is thus apparent that the provision of thermostatic means at this danger point, controlled by the temperature of the air having contacted the garments and containing residual solvent, not only insures the regulation of the air to prevent an explosion, but also indicates danger and prevents any danger of the explosion reaching the outside of the container and insures the application of fire inhibiting fluid in the event of failure of current above a safe temperature level. It is apparent that with the control of these safety features, located at the only danger point, I have provided a device so controlled as to provide maximum efliciency yet adequate safety against explosion, and one which is preferably also provided with safe guards only effective if there is a real danger of explosion.

Further features of my invention relate to the structure of the various means and mechanism I have provided for carrying out the above purposes.

A further object of my invention is to provide a device which will meet all insurance and municipal safety requirements. I

These and such other objects of my invention as may hereinafter appear will be best under stood from a description of the accompanying drawings, which illustrate my invention applied to a machine for drying garments in the process of dry cleaning them to free them of residual hydrocarbon solvent, of the so-called tumbler or ,rotating basket type.

In the drawings, Fig. 1 is aperspective view of a dry cleaning drying tumbler constructed in accordance with my invention taken from the front thereof with the covers for the door latch ing device and instrument panel removed.

Fig, 2 is a perspective view of the dry cleaning drying tumbler shown in Fig. 1 taken from the rear thereof at approximately 180 from the line of vision of Fig. 1, with the cover for the trip latch removed.

Fig. 3 is a vertical longitudinal sectional view taken through the tumbler shown in Figs. 1 and 2 along the line 33 of Fig. 2.

Fig. 4 is a transverse vertical sectional view taken along the line 4-4 of Fig. 3

Fig. 5 is an enlarged detail front elevation of the elements of the door latching mechanism I preferably employ.

Fig. 6 is a transverse vertical sectional view taken approximately centrally of the parts of the elements of the door latching mechanism shown in Fig. 5

Fig. 7 is an enlarged rear elevation of the elements of the tilting latch I preferably employ to render the'means for flooding the casing with fireinhibiting fluid tiltable to be rendered active as indicated in dotted lines on occurrence of a temperature within the outlet duct above a predetermined level.

Fig. 8 is a transverse vertical sectional view taken through the elements of the tiltable latch shown in Fig. 7 approximately centrally thereof.

Fig. 9 is a diagrammatic view of the parts of the tumbler illustrating the control means therefor, showing the tumbler in perspective and with the control means spread out and shown in a single plane to diagrammatically illustrate the functioning thereof, with the door bolt of the tumbler in open position, cutting ofi the flow of the current to maintain all portions of the control device and the fan and tumbler motor in an inoperative position.

Fig. 10 is a diagrammatic view similar to Fig. 9 with the door bolt closed to start up the fan and tumbler motor, illustrating thetumbler in active tumbling operation at a suitable safe temperature as'indicated by the energized go" signal.

Fig. 11 is a diagrammatic view similar to Figs. 9 and 10. after the time controlled means has functioned to change the signals from go" to stop, indicating completion of the normal tumbling operation, and has cooked the means for releasing the door bolt latch.

Fig. 12 is a diagrammatic view similar to Figs. 9-11, illustrating the device when the tempera.- ture in the outlet duct has risen above a predetermined safe level, to actuate the danger signal, to render the means for releasing the fire inhibiting liquid on failure of current active and to positively prevent operation of the means for unlatching the door bolt, should this rise in temperature occur within the normal adjustable time interval of tumbling operation as evidenced by the also energized go signal, and illustrating in dotted lines the position certain of the parts assume when the device has functioned after a failure of current.

Fig. 13 is a diagrammatic view similar to Figs.

9-12, indicating how the device functions to achieve the same results set forth for Fig. 12

In the drawings, wherein like characters of reference generally indicate'like parts throughout,

20 generally indicates a suitable tumbling 'dry-' v era-ted' valve or complicated 2, 3 or have been employed for suitably removing 'all ing device for use in the dry cleaning of garments after they have been treated in a so-calledwasher with a suitable .solvent and centrifuged'to remove residual solvent therefrom prior to press-j ing them in a garment pressing machine... My imresidual solvent without danger of explosion may, however, in the broader aspects thereof,be em- 4 stage methods, with their necessary control apparatus,

traces of residual solvent; .In controlling this proved method and apparatus for removing the the inlet duct 26. and to control the temperature of the heat interchange apparatu 32 by the tem '1 perature .of said incoming air. This has proven ployed for removing residual solvent from other materials than garments, and the apparatus it-.

self may, if desired, be employed for anyother drying purpose. I have illustrated in the drawings a tumbler 20 of the type typical in the prior art, which includes the casing or outer shell 22 usually constructed of sheet metal. The inner shell basket or container 24 for containing the garments or other materials to be dried is con-- tained within the outer shell 22 and is agitated in any suitable manner, preferably being rotated, as

so inefllcient that it has been necessary to use 3 or 4' cycles or stages ,inthe drying method. In these prior art structures great care has been taken at least during the initial so-called danger period in keeping the temperature of the an entering thecontainer below the flash point of the. solvent employed.

shown. The container 24 is constructed of open mesh or preferably of perforate material as shown. Such a tumbler 20 is usually provided with duct means in its casing for passing dryin air through said basket 24, including the inlet duct '26 to said basket and the outlet duct 26 from said basket, and suitable means are provided to circulate a current of drying air through said duct means 2'6 and 26 and "basket 24, in the embodiment shown comprising a fan 30 in the outlet duct 28 rotated by means to be later described. Such types of tumblers are also provided with suitable means to preheat the drying air prior to passage through said basket 24, which in the embodiment shown, comprises heat exchanging apparatus 32, comprising thesteam coils 34passing in a sinuous course within said inlet duct 26. In the embodiment shown the heating coils 34 are provided with a suitable cover 36 forming the inlet chamber 26 between said cover 36 and a vent 38 leading from said inlet chamber or duct 26 to the basket 24. The side walls of said inlet duct or chamber 26 are provided with suitably spaced heat distributing fins or vanes 40 to guide the incoming air across said steam pipes 34 prior to passing downwards through the inlet vent 38 to the basket 24. It is apparent, however, that ,in place of the specific structure shown, insofar to circulate air through the perforate basket 24 containing the materials to be dried, and any suitable means other than that shown may be provided for preheating said air. The basket 24 is suitably mounted on a shaft 42, mounted on a bearing 44 on the rear wall 46 of said tumbler, which is rotated in any suitable manner. In the embodiment shown, the fan 30 is mounted on the shaft 48 Of the motor 50, and suitable intermeshing means from the motor shaft 48 drives the tumbler shaft 42, in the embodiment shown comprising a chain driven by a suitable driving gear 54 driven by the motor shaft 48 and driving a suitable gear 56 on the tumbler shaft 42. If desired, however, the means for rotating the tumbler and the means for driving the fan may be entirely independent of each other. As also stated, if desired the container may be suitably agitated in any suitable manner other than by rotating it, and insofar as certain broad aspects of my invention are concerned need not be moved.

In the prior art, the temperature of the steam pipes has been regulated by a suitable hand op- I carbon solvent on garments.

I have discovered that the only danger of providing an explosive mixture is when e air actually contains cleaning solvent after contact withthe garments or other materials being dried, and that due to the latent heat of evaporation of the amount of solvent normally present removed from the garments being treated by the circulating air thatthe temperature of the air after passage through the basket containing garments or container containing other materials, whether agitated or not, drops in the specific dry cleaning tumbling apparatus shown and hitherto described substantially 50 F. or 30' C. when employing a standard type of 138-140 F. fiash point hydro- I have thus found out that prior art tumblers controlled by the evaluation of the temperature of the air prior to contact with the garments have been operated at a much lower ineilicient temperature than is necessary to prevent explosion. I have further discovered that if the temperature of the treated air leaving said basket, reduced by the latent heat of evaporation of cleaning solvent in said garments or other materials is evaluated and the preheating of the drying air controlled thereby that there will be no danger of explosion if this temperature, which, asstated, is usually 50 F.

less than the temperature of the air entering the basket, is kept below the flash point of the inflammable hydrocarbon solvent. I have also discovered that with this higher permissible temperature of air entering the garments,'-apprcximately 50 F. higher than formerly thought necessary, the drying efficiency of the device is so improved that the device will dry the garments or other materials and remove the residual solvent without danger of explosion in a short single stage treatment, thereby eliminating the necessity for the complicated apparatus formerly required in automatically changing the stages of operation I of the drying tumbler or other container in prior art structures. Thus, in my preferred embodiment I am able to provide a device of this simple structure with a single stage operation by evaluating the temperature of the air leaving the container. which is the only air which can contain the solvent and hence be explosive, preferably by suitable thermostatic means 58 in the outlet duct and controlling the temperature of the heating apparatus 32 for preheating the drying air by the changes in temperature of this air containing residual solvent in the outlet duct, thereby insuring that at the only possible danger point in or near the outlet duct, the temperature of the explosive mixture containing air and residual solvent, is maintained at a safe temperature not 7 materially higher than the flash point of the solvent and hence below a predetermined inflammable level. I thus pass the heated air through the basket or container 24 for a suitable period of time in contact with the garments or other materials in the basket, I continuously evaluate the temperature of the treated air leaving said container or basket, reduced by the latent heat of evaporation of cleaning solvent in said materials in said container, and I constantly control the operation of the heat exchanging apparatus during said period of time to maintain the air leaving said container containing cleaning solvent after temperature not materially higher than the flash point of the solvent so as to maintain the temperature of the air having had contact with said materials below an inflammable explosive level.

As will be apparent later, the thermostatic means in the outlet duct 28 may not only control the amount of heat applied' to the heat interchanging means 32, but may also control various safety features to be described. The means including said thermostatic means for controlling the amount of heat applied by the heat interchanging apparatus 32 may be of any suitable type, electrical or mechanical. In the embodiment shown, the steam coils 34 are provided with the inlet pipe 68. This inlet pipe 68 may be provided, if desired, with a manually controlled valve 62 for the manual control of steam applied to the heating coils 34. As stated hitherto, the means for controlling said heating means in accordance with the temperature in the outlet duct 26 includes the thermostat 58 which controls the regulator 64 for controlling the movement of a valve 66, which is thus indirectly thermostatically controlled. While any suitable 86 is of the reverse acting type and is adapted to function against-a valve seat 68 in the valve casing 18. The valve 66 is controlled by the diaphragm 12 in the regulator 84 which is atcontact with said garments at a predetermined tached to the valve 66 by the rod I4. The diaphragm 12 is normally urged to a position closing the valve 66 by' the springs 16. A chamber" is provided at the upper end of the regulator having the diaphragm 12 as the lower wall thereof. A fluid line 88' has a contro1 valve 82 therein and beyond it separates .into two branches, namely the pressure branch 84 leading to the diaphragm chamber 18 and the outlet branch 88; The thermostat '58 located in the outlet duct 28 controls the valve 82. Normally the regulating fluid passes through the pipe 88 and through the pressure branch 84 to the diaphragm chamber 18, retaining the diaphragm 12 in a lowered position maintaining the valve 66, is open position permitting the flow of steam to the coils 34 through the inlet pipe 68. Thus when the temperature in the outlet duct 28 gets above a prevalve 88 to closed position, shutting on the ingress of steam through the inlet pipe 68 to the coils 34. When the temperature in the outlet duct 28 falls below said predetermined level, it is obvious that the thermostat 58 will contract, permitting the valve 82 to close, permitting the pressure in the inlet pipe 88 to pass through the branch pipe 84 into the diaphragm chamber 18 to lower the diaphragm I2 to lower the connected valve 66 to open position to permit steam to again flow through the inlet pipe 68 to the steam coils 34. It is apparent that this provides a sensitive type of thermostatic control which is rapidly sensitive to changes in temperature above the danger level.

the garments or other materials being dried or extracted, although, if desired, any of the individual safety devices now to be described may be employed with any other type of control for the preheating means or even with a hand control or no control. To provide one of these safety-devices, I provide means 88 movable to a. position simultaneously latching the door 98 of the casing 22, pivotally mounted to cover a suitable entry and discharge hole 92 in the front wall 94 of the casing, in my preferred embodiment comprising the door bolt 88, said means being also capable of starting the functioning of the air circulating and basket moving means, in the embodiment shown comprising the motor 58 for simultaneously rotating thefan 38 and rotating the tumbler 24. .In the embodiment shown, I employ a circuit 96 for actuating said motor 58 having a magnetic starting relay switch a free position breaking said circuit, in the embodiment shown by the spring I84, and hence stopping actuating of said air circulating and basket moving means or motor 58. I also provide means I86 for retaining said movable latching means or bolt 88 in latching position, in the embodiment shown comprising the solenoid actuatedrod I86 adapted to fit into a suitable notch I88 in the slidable bolt 88. I also provide means for releasing said latching means retaining means or solenoid actuated rod I86, in the embodiment shown comprising the solenoid 8. Suitable means are provided for actuating said means, for releasing said latching means retaining means, in my preferred embodiment comprising the normally open relay H2. I also provide externally operated means for controlling th functioning of said releasing means, in my preferred embodiment comprising an externally manually operated safety switch H4 actuated by the cam 6. In the embodiment shown the means H2 for releasing said latching means retaining means, namely the relay I I2, is controlled by a time controlled switch later to be,described, although it is apparent that other suitable types of means actuated by timer means may be employed for this purpose, said means being settable for adjustably variable time controlled intervals of operation of saidtimer means and 7 5 hence tumbler. It is thus obvious that with this construction the, door 80- is positively retained in closed position by the rod I88 retaining the bolt 88 in closed position until the termination of the time controlled period, when on the operation of the manually controlled means II4,

the means for releasing said latching means is permitted to open, permitting opening of said door 98 only after the end of said time conolled riod. tr I also provide a signal indicating normal operating or "go" movement of said basket, in my preferred embodiment comprising a yellow light H8 and a signal indicating completion of said proper time interval of tumbling and hence time for removal of the garments from said basket 24, comprising an end signal or green light I20, indicating completion of the desired time interval of the basket movement, said yellow and green lights H8 and I28 respectively being suitably actuated by the control circuit I88 and suitable means to be described for switching signals, in my preferred embodiment comprising the combination relay II8 functioning doubly as a relay for the circuits of each of said lights.

I also employ timer means I22, in my preferred embodiment, comprising an electric clock I22 10 leasing means when the temperature rises above a hitherto described, I provide signal means comdriven by the single phase synchronous motor I24, and I employ means including means controlled by said timer means settable for adjustably variable time controlled intervals of operation of said means for changing said signals, and also, as stated, for actuating said means for releasing the retaining means for the solenoid rod I06 for the door latching means or bolt 88, in my preferred embodiment comprising the time controlled switch I26 having a member I28 moved to closed position by said timer means or time clock I22, adjustably settable to regulate the time interval of tumbling, in my preferred embodiment to regulate the time interval of inaction of the relay Ii? for acuating the solenoid III! and the combination relay I I3 for switching the signals lit and I20, after bolting said door 90 to start said motor means 58.

Another safety feature of my invention comprises the means I preferably employ for flooding said basket 2d and connected duct means with fire inhibiting fluid.- Any suitable type of fire inhibiting fluid may be employed in the specific invention shown and claimed by me, but I preferably employ for this purpose liquid carbon dioxide (CO2), which changes into a gas to positively prevent combustion. While I am aware that others have used steam and other types of gas for this purpose, I believe the use of gaseous carbon dioxide (CO2) is superior, due to the fact that it has no injurious effect on the garments being treated, and for this purpose I provide the liquid carbon dioxide container or carboy I88, having a pipe I32 leading to the .upper portion of the inlet chamber 26, preferably terminating in two pipes I34 and I36, discharging respectively at the front and rear of said inlet chamber 28, said pipe I32 having a valve I38 therein. I also provide means to release said flooding means on failure of actuation of said air circulating means or fan 30, in my preferred embodiment on a failure of electric current, and including normally inactive electrical control means for this purpose, comprising a suitable weight I40, for opening said valve I88, normally retained in a raised latched position by suitable means to be described, and I provide means including thermostatic means I42 in said outlet duct 28 operable only to permit operation of said flooding means reprising the red light I44 actuated by said thermostatically controlled means I48 for indicating rise of temperature above said predetermined level. Thus in the specific embodiment shown said thermostatic means I42 in said outlet duct 28 becomes operable above said predetermined temperature level therein to render the control means for the flooding means active on a failure of current, to additionally actuate said danger signal or red light I44 and to positively disconnect said latching means retaining rod solenoid III].

It is thus obvious that my invention includes five safety features, namely (1) that it is impossible to start the means for rotating the air circulating means 38 and moving the tumbler 24 until the door 88 is bolted; (2) an important safety feature which positively prevents again opening the door until the temperature in the outlet duct is below a predetermined positively non-explosive level; (3) a switchoperated by a time clock in association with a latching device for the door bolt which will positively prevent release of the door bolt to open the door until the basket has been agitated a sufficient period of time to remove the solvent therefrom, which, as stated, in (2) is positively prevented from operating to permit withdrawal of the door bolt when the temperature rises above a predetermined safety level; (4) a safety signal system which will denote operation of the tumbler after the door is closed for an adjustable predetermined period of time, which at the completion of said period of time automatically switches signals to indicate completion of the normal tumbling flood the container with fire inhibiting fluid in the event of stoppage of the air circulating means which is also only effective to flood the basket with fire inhibiting fluid when the temperature rises to a dangerous inflammable level, stoppage of air circulating means being ineffective to release the flre inhibiting fluid if the temperature is below a safe predetermined level, which device is constructed to operate only on a lasting failure of current.

Thus, as stated, I provide thermostatic means in the outlet duct not only to control the temperature of the preheating means for the air circulating through the materials but also to control various safety features. Thus in my preferred embodiment suitable thermostatic means in the outlet duct (1) regulates the preheating duct for accomplishing one or moreof these results may be provided, but in my preferred embodiment I preferably provide electrical means for actuating all of said devices, including an electric switch in a control circuit controlled by said thermostatic means, which may or may not be a different thermostatic means from that employed to regulate the preheating means, in the embodi ment shown comprising a separate thermostat I will now proceed to a description of the specific electrical system I employ for actuating the various types of safety controls hitherto described. I have shown in Figs. and 6 the specific construction of the safety features I preferably employ in association with the door bolt. The door bolt 88 is suitably mounted to slide in a casing I46 suitably attached to the front of the door 80 in alignment with an axial hole or socket I48 in a casing I50, suitably mounted on the front wall 94 of the container adjacent the inner end I52 of the bolt 88. The outer end of the bolt 88 is provided with a suitable enlarged push button I54. As stated, I provide means for normally urging said bolt to open position. In my preferred embodiment for this purpose the interior of the casing I46 is enlarged to receive a spring I04 which has the inner end abutting the inner end of the enlarged casing I46 and the outer end abutting a suitable annular flange I58 on the bolt 86. The inner end I52 of said bolt is extended into a narrow tip I60 having a shoulder I62 spaced from the inner end thereof. As stated, the main control circuit I00 is suitably connected to the source of electric supply 66, in the embodiment shown having a transformer I64 intermediate the source 96 and the control circuit I00 to reduce the voltage in the control circuit if this be desired. The control circuit I00 passes adjacent the inner end I62 of said bolt and has preferably a double pole switch I02 therein in or adjacent the bolt socket I48, closed by said bolt when moved to a position locking said door. In the embodiment shown said switch I02 comprises the two movable contacts I66 and the stationary contacts I10. The tip I60 of the bolt 88 is suitably insulated from the metal of the bolt itself,

in the embodiment shown by being separate from the bolt and constructed of insulating material. The inner end of said tip I60 is adapted to abut the inner movable contact I66 to urge it against a stationary contact I10 and is also adapted to pass through a hole I68 in the outer movable contact I66 until the shoulder I62 thereof abuts said movable contact to cause it to supplementally contact the other stationary contact I10, thus completing the circuit through the main control circuit I00.

I also provide a motor switch actuating circuit I12 connected to and actuated by said main control circuit I00 having a relay coil I14 therein for actuating said motor line relay switch 88 to operatively connect the motor circuit I16 to the motor 50 only hen the door 90 is bolted by th bolt 88. I have shown in the drawings a connection for a three phase motor, although it is obvious that any suitable type of motor may be employed. As stated, I provide a latch I06 for holdin said doorbolt 88 in latched position, said door bolt 88 being provided with a suitable notch I08 for receiving the latch I 06 therein. As also stated, said latch I05 comprises a rod actuated by the core of a solenoid I I0; which is suitably actuated in a manner later to be described.

As previously stated, I also provide a signaling system and to actuate the solenoid IIO to release the latch I06 and to actuate the signaling system I provide the circuits now to be described. As stated, I provide an electric timer clock I22 driven by a single phase synchronous motor I24. The single phase synchronous" motor for the timer clock I22 is suitably driven by the circuit I18 connected to said main controlcircuit I00. As stated, I provide the go signal II8 comprising a yellow electric lamp indicating normal tumbling operation, and a circuit I for said 30" signal connected to said main control circuit having a relay switch I82 therein, comprising a stationary contact I 84 and the movable switch contact I86. The movable contact I86 is provided with suitable means, such as the spring I88, to normally urge it to signaling position during the time interval of tumbling operation. I also provide an end signal, in the embodiment shown comprising the green lamp I20 indicating completion of the desired time interval of tumbling operation and a circuit I90 for said end signal having a relay switch I92 therein movable to signaling position at the completion of tumbling operation, comprising a stationary contact I94 and the movable relay switch contact I86, it being obvious that in the embodiment shown the movable relay switch blade I86 functions alternately as a double pole alternative relay switch blade for the respective go and "end" signal circuits I80 and I90. I also provide the relay coil I96 for simultaneously actuating the movable blade I86 of the relay switches I82 and I82 in each respective signal circuit I80 and I90 to simultaneously de-energize the "go signal circuit I80 extinguishing the yellow light H8 and energizing the end signal circuit I90 lighting the green light I20. I also provide a circuit I98 connected to the main control circuit I00 for actuating said signal relay coil I86 having a switch I26 therein including a blade I 28 movable by said timer clock I22 to closed position after a predetermined adjustable time interval of timer clock operation, and I provide means for setting said switch to operate on completion ofdifferent adjustable time intervals. In my preferred embodiment said switch I 26 includes a settable member 200 having a stationary contact 202 mounted thereon. Said member 200 terminates in the pointed end 204 adjustable over a suitable time scale 206 mounted above the time clock I22. Said settable member 200 is suitably pivotally mounted as at 208 in front of the time clock. While any suitable means may be provided for adjustin the member 200, in the preferred embodiment it is preferably adjusted as follows as shown in Fig. 1: a shaft 2I0 projects laterally of the time clock and terminates in an end having a turning handle 212 thereon. The inner end of said shaft 2 I 0 has a worm 2 I4 mounted thereon which drives a worm gear 2I6. An arm 2I8 projects radially outwardly from the shaft 2I1 on which said worm gear 2I6 is mounted, and a link 220 is pivotally connected to the lower end of said member 200 and to the outer end of said radial arm 2I8. The switch I28 also includes the movable contact member I28 which projects radially from the main drive shaft 2I8 of the timer clock I22 so as to be rotated thereby and terminates in an outer bent pointed end 22I which contact I84 of the go circuit I80 to the stationary switch contact I94 of the "end" circuit I90. It is thus obvious that in the embodiment shown, while I have in effect provided two relays for respectively energizing and de-energizing simultaneously the circuits I80 and I90, I have employed forthis purpose the solenoid I98 actuating the single movable blade I88, said blade thus being common to the combined relay II3 functioning as a single relay for each of said respective light circuits I80 and I90.

I also provide a circuit 224 connected to the main control circuit I for actuating said solenoid IIO having a relay switch 228 therein forming part of a suitable relay II2 for this purpose. Said relay switch includes the movable blader280 and the stationary contact 232 interposed in said circuit 224. While a separate relay solenoid may be provided if desired. I preferably connect the movable blade 230 of the relay H2 in tandem with the movable plate I88 by the rod 234 to function doubly as a relay for the light circuit I80 and also as a relay for the light circuit I90 and having a common movable switch blade I88 by connecting said switch blade 280 by the rod 234 to said common switch blade I88 to move therewith so that all three relays may be actuated by the single solenoid I96 interposed in the time controlled circuit I98 and actuated by the timer controlled switch I28 thus providing a double polo; double throw switch actuated by a single solenoid or relay. It is thus obvious that with this construction, on the actuation of the solenoid I98 by the timer controlled switch I28,

that the yellow light II8 will be switched ofi and the green light I20 turned on at the same time the circuit 224 is energized up to the switch Mt, externally operated in the manner previously explained. On actuation of said switch I I4, the circuit 228 is completed to actuate the solenoid IE8 and the actuated solenoid IIO will function to draw the solenoid rod I06 out of its notch I88, permitting the spring I04 to withdraw the bolt 88 from its socket I48 so that the door 90 may only be opened after the completion of the adjustably set time controlled periodjor tumbler operation.

I will now describe in more detail the specific type of means I employ for flooding said casing 22 with the fire inhibiting fluid on occurrence of a temperature within said outlet duct 28 above a predetermined level. As previously set forth, said means includes a container or carboy I30 having a normally closed discharge valve I38 therein.

The valve I38 may be of any desired type, but in the preferred embodiment comprises a suitable cutter valve which includes a diaphragm 288 for the container and a suitable cutter blade 238 actuated by the arm 240 of the valve I38 in any suitable manner to cause'the cutter blade 288 to perforate the diaphragm 238. The end oLthe arm 240 is suitably connected by the chain 242 I passing over the pulley 244 to the rod 248 pro- 4 Y jecting upwardly from the weight I40. The rod 248 has asuitable latching pin socket 248 therein' to receive the end 250 of the latching pin 252. A rigidly vertically mounted sleeve 284 is provided for vertical reciprocation of the rod 248 therein having a hole 258 therein for receiving the end 280 of the latching pin 252 therein when in alignment with the rod socket 248. The latching pin 252, as stated, is movable to a position having the end 250 thereof contained in said socket 248 for retaining said weight I40 in raised inoperative position. The outer end of the latching pin terminates in the push button 258, and a horizontally mounted guide sleeve 280 for said latching pin rigidly mounted on said machine is also provided to permit horizontal slidable movement of the guide pin 252 into and away from said socket 248. Means are provided for urging said latching pin 282 out of its socket 248, in the embodiment shown comprising the helical spring 262 surrounding said latching pin, having the inner end thereof abutting the outer end of said stationary sleeve 280 and the outer end thereof abutting an annular flange 284 on said latching pin. The latchingpin 252 .is also provided with a latch socket 288 on the upper surface thereof in alignment with a suitable hole 288 in said sleeve 280. It is thus obvious that the spring 282 normally urges the latching pin 252 out of engagement with the socket 248, but when the push button 258 pushes the end 250 of the latching pin 252 within the socket 248, the latch socket 288 will be brought into alignment with the latch hole 288 in the sleeve 280. I also provide the latch 210 pivotally mounted on said sleeve as at 212 having a projection 214 at the inner end thereof weighted to normally project downwardly through the hole 288 in the sleeve 288 and into the aligned latch socket 288 in the latching pin 252 to retain the latching pin 252 in latched position with the end 250 thereof contained in the socket 248. I provide a rocker plunger 218 sultabiy slidable in a sleeve 218 rigidly vertically mounted on the latch casing. A trip rocker 280 comprising a lever of the first class, having an arm 282 projecting outwardly therefrom and an arm 284 projecting inwardly therefrom substantially in a horizontal plane is centrally pivotally mounted as at 288 as by the pivot pin 288 on the lower end of the rocker plunger 218. Said trip rocker also has a projection 288 projecting downwardly centrally thereof adapted to selectively abut the latch 218 in the manner to be explained, either at a neutral position above its pivot 212 or in a position outwardly of said pivot 212 to pivot the latch projection 214 out of register with its latch socket 288. A spring 290 connects the lower end of said projection 288 with the rocker plunger 218 so as to normally retain the projection 288 in an off center position-to drop to said neutral position over, the pivot 212 or to a position abutting the outer end of the latch 210 to release it. The trip rocker 280 is positively moved to said opposite positions in a. manner to be explained. A solenoid actuated rod 292 is pivotally connected to the inner end of said inner arm 284 of the trip rocker 280, and a solenoid actuated rod 294 is pivotally connected to the outer end of the outer arm 282 of the trip rocker. I provide a low temperature solenoid 298 located to the left of rocker plunger 218 in Fig. 7, adapted on the energization thereof to raise the solenoid rod 292 to positively pivot said trip rocker so that the lower end 288 thereof will adapted on the energization thereof to raise the solenoid actuated rod 234 connected to the outer end of the outer arm 206 of the trip rocker 280 v to pivot the trip rocker to the dotted line position shown in Fig. 7 to cause the lower end 286 thereof to drop on failure of electric current to abut the free outer arm 2" of said latch 210 to pivot it to raise the projection 214 out of its latch socket 266 to permit the spring 262 to urge the latching pin :52 outwards from said latch socket 248, thus releasing said weight I40 to actuate the cutter blade in the valve I38 to open said fire inhibiting fluid discharge valve I38 to cause the fire inhibiting fluid to flow through the pipe I32 to be discharged downwardly through the pipes I34 and I36 into the interior of the container 22, thereby flooding the basket 24 and its adjacent inlet and outlet ducts 26 and and the garments and other materials contained within said basket with fire inhibiting fluid. I also preferably'provide an air check associated with said trip rocker latching means to cause the trip rocker 280 and plunger 216 to drop so slowly on momentary current interruptions that before they have dropped sufiiciently to abut the latch 210, the respective solenoid 296 or 208 is again energized to raise the trip rocker 280 to an unlatching position. For this purpose I pref,- erably construct the sleeve 218 in the form of an air check cylinder and I provide the rocker plunger 216 with a longitudinal vent 300 extending from near the lower end thereof to the upper portion thereof. To permit the slow dropping of said plunger 216, an air vent 302 is provided near the lower end of said cylinder 218 and said cylinder is provided with a suitable cap 304 to make it into a cylinder having an adjustable reducing valve therein. Said valve may include a passage 306 having a conical valve seat 308 therein. A cooperating valve head 3I0 is adjustably mounted on the inner end of a set screw 3I2 having a turning handle 3I4 at the outer end thereof mounted on the wall of said cylinder 218 near the upper end thereof above the upper movement of the plunger 216. By adjustment of the set screw 3 I 2 the leakage through the cooperating valve and valve seat 3) and 308 respectively may be readily adjusted to regulate the time interval of dropping of the plunger 216 and its connected trip rocker 280. Thus in use the plunger 216 and trip rocker 280 will drop slowly, depending on adjustment of the valve 3I0, until the longitudinal vent 300 in said plunger comes below the lower end of said plunger cylinder 218 when the plunger 216 and trip rocker 280 will drop rapidly either to the neutral or to the unlatching position hitherto described as air may pass rapidly through said air vent 302 and out through said longitudinal vent 300. This addition of an adjustable air check cylinder I believe is novel in devices of this description, for it provides a device which may only be actuated on a real interruption of current and which will not function on momentary current interruptions.

'I also provide a circuit 3I6 connected to the main control circuit I for actuating the low temperature solenoid 296 having a normally closed relay switch 3| 8 therein comprising a movable switch blade 320 and a stationary contact 322. I also provide a circuit 324 connected l6 to said main control circuit I for actuating said high temperature solenoid 203 having a normally open relay switch 326 therein comprising said movable blade 320 and a stationary contact 328. It is thus obvious that in the embodiment shown that the same movable relay switch blade 320 performs the function of the movable switch blade for the relay switch 318 for the low temperature solenoid circuit 3| 6 and for the relay switch 326 for the high temperature solenoid circuit 324, thus making a single relay switch blade perform the same function in two relay switches. The spring 330 normally urges the movable switch blade 320 to a position contacting the stationary contact 328 completing the high temperature solenoid circuit 324. I provide a suitable relay coil 332 for simultaneously moving the common movable switch blade 320 to actuate the relay switch 3I8 to disconnect the low temperature solenoid circuit 3I8 and the relay switch 326 to connect the high temperature solenoid circuit 324.

As stated, I provide the thermostat I42 mounted in said outlet duct 28. I also provide a switch I43 movable by said thermostat to open position when the temperature rises above a predetermined level in said outlet duct. I also provide the relay coil circuit 336 for said solenoid 332 connected to said main control circuit I00 having said normally closed thermostatic switch I 43 therein. Said switch I43 includes the movable contact 338 and the fixed contact 340. The movable contact 338 may be moved to broken open position in any suitable manner such as by the expansible liquid in the thermostat I42 when the temperature in the outlet duct rises above a predetermined level.

I also provide, as stated, a danger signal, in the embodiment shown ared lamp I44 and a circuit 344 for said danger signal connected to said control circuit I00 in series with said high tem-- perature solenoid circuit 324 so as to be energized simultaneously therewith to light the danger lamp I44 when the circuit 336 containing the solenoid 332 is broken by rise of temperature in said outlet duct causing the thermostat I42 to break the switch I43 to de-energize the common relay solenoid 332, permitting the spring 330 tc raise the solenoid switch blade 320 to break the low temperature solenoid relay H8 and on resulting de-energization of said low temperature solenoid circuit 3I6 to actuate the high temperature solenoid relay 326 connecting in said high temperature solenoid circuit 324 and danger light circuit 344.

The circuit 224 for actuating said door bolt latch solenoid H0 is connected to the main control circuit I00 in series with said low temperature solenoid circuit 3I6 so that it will be automatically rendered inoperative on de-energization of said low temperature solenoid circuit 3I6 by said thermostatically controlled relay switch 3I8 energized by the solenoid 332 in the solenoid circuit 336 controlled by the thermostatically controlled switch I43 in the manner hitherto explained. As stated, said circuit 224 also has the switch I I4 therein, manually controlled from exterior of said casing to close said circuit 224 to actuate said solenoid IIO to release said door bolt latch I06 to permit opening of said door only after completion of the normal tumbling operation as designated by said end signal I20, it also being apparent that the switch I02 is simultaneously opened which stops said motor 60, stopp ns the Ian 30 and tumbler 24. In the em- '00 and basket 24 in themanne The timer switch I20 is then set'by moving the. settable member 200 by rotating the turning knob 17 J bodiment shown' the switch vII4 comprises the movable switch contact blade '40 and a stationary contact 340. The cam IIO is arranged to depressthe movable blade 040 against the stationary'contact 040 to complete the circuit 224 operating switch "4 to energize the solenoid IIO to withdraw the latch I00. The cam H0 is mounted on a shaft 050 extending; through the door having a' handle 052 on the outer end thereof so as to be readily manually operable from exterior of the casing, Thus in order to complete the circuit 224'to open the ,door it is necessary that the time controlled switch I20 should have closed, lighting the green light, signifying completion of normal tumbling operation, and it is necessary that the low temperature solenoid circuit 0I0 be energized in order for the casing to- I be at a safe and non-explosive temperature when opening the door, and even then it is impossible to open the door until the cam IIO-has been rotated in the manner explained byfthe-handle 002 to complete the circuit 224 to energize the solenoid IIO to raise the latching pin I00 out of contact with the doorbolt 00., For simplicity of the'drawings I have shown all the various cir-- cuits hitherto described connected'to the main control circuit I00 by many common wires, designating the circuits near the parts controlled thereby by their proper reference characters, and it is apparent that most of the circuits are conjointly connected to the main circuit I00 by the various common wires shown.

In operation, after my improveddryinrdevice has had the inlet pipe 00 suitably connected to the source of steam. and the power lines 90..suitable connected and the device otherwise setup in the. manner described, the tumbler is now ready to be put into operation. The first stepiisjto open the manually operated steam supply valve 02 which will let the steam bias the'thermostatically controlled valve 00 at the top of the heating apparatus 32. As the thermostatically controlled valve 00 is a reverse acting valve controlled from the outlet duct 20, it will remain open until the air passing through the outlet duct 20reaches the maximum temperature of 138 F., when in the manner explained the pressure will be bypassed.

through the line 00 to reduce the pressure against the diaphragm 12 to permit the spring 10 to rise to close the valve 00 to shut off the steam -entering the coils 34 as shown in Figs. 12 and 13. I

have shown in Fig. 9 the position the parts assume at this stage. The next step is to latch the door 90 by adiusting the door bolt'00-within its socket- I40, causing-the inner end I52v thereof to close the switch I02 in the manner hitherto explained.

when the rod I00 will drop to move into notch I00 to-retain the door bolt in a latched position. This will complete the control circuit I00 and energize the motor switch circuit I12 and energize the solenoid'I14 to attractthe. switch blade 90 to 18 in its socket I40 closing the switch I02 and permitting the latching pin I00 to slide into position into its notch I00, retaining the bolt 00 in locked position and moving the cam IIO through the medium or its external handle to close the switch I I4 to completethe-circuit 224 to the solenoid I I0 thus starting the operation of the motor and fan in the manner just described. The pointer 204 oi. the time-"controlled switch may then be adjustably set in the desired manner for the desired period 01. tumbling operation. Fig. 10 diagrammatically illustrates what happens during this stage.v The timer circuit I10 is energized to operate the timer I22. The switch I43 is closed, permitting the thermostatically controlled solenoid. circuit 300 to energize the solenoid 002 to permit the common switch blade 320 to swing against the pressure or the spring 300 to the position shown, energizing the low temperature solenoid circuit '0I0. '-As the time controlled circuit I90 has not 'yet been energized by the time controlled switch I 26-, the spring I00 will pull the common switch blade 'I00.a nd switch blade 220, the blade 220 to a neutral position and the common switch blade 100 to a position contacting the contact I04 to energize the go" light circuit I00, lighting the yellow lamp IIO.

' Theair fiow during the period otnormal tumbung operation is held below 138 F. 11-138 flash j.this period of normal tumbling operation, the timer I22 operates the movable contact blade I20 until it contacts the stationary contact 202 on the settable arm 200 when the circuit I operated on .closing of the time switch 126 becomes effective to energize the solenoid I90 pulling the contact blade 220 down to the stationary contact 220 to complete the circuit,224 for energizing the door latch solenoid IIO unless it otherwise be broken and the common switch blade I00 downwards to energize the circuit I 90 for lighting the green end" light I20, and as it is simultaneously removed from the fixed contact I04- it will break the circuit I00, shutting oil the yellow go light I I0. Inasmuch as the door bolt 00 is still in position closing the switch I 02, the motor switch cir- Icuit I12 continues to close the switch 98 to complate the motor circuit I10 to energize the motor .50 to-continue to rotate the fan 30 and rotate the tumbler 24. Fig. 11 diagrammatically,illustrates what, happens during this stage.

When it .is desired to open the door 90, the handle 352 is turned, causing the cam IIO to close the switch I I4 to energize the solenoid circuit 224'to energize the solenoid IIO to lift the solenoid actuated rod or latch I00 out of contact complete the circuit in the motor circuit ,I10 'to start the motor 50, which in the embodimentshown simultaneously starts ro tion'of the fan H2 in a counter clock wise direction until the pointer 204 indicates the time cycle of 10 minutes itherto described.

on the scale 200. This willallow the tumbler to;

be warmed up and ready to receive the garments to be tumbled. The door is then-opened, the

garments inserted in the basket 24, the door 90" closed and the bolt 00 again latched into position with its socket I00 permitting the spring I04 to withdraw the bolt 00 from its socket I40. This also causes the spring blades I00 01 the switch I02 to pivot to open position, breaking the main control circuit I 00, causing. de-energization oi the solenoid I14 and causing cessation of rotation of the basket 24 the-parts resuming the positions shown in Fig. 9. The time clock I22 is constructed to automatically return to zero and the light I20 will automatically; so out as the control circuit I00 is broken. 1

Figs. 12 and 13 indicate what happens if the temperature or the air flowing through the outlet duct 20 exceeds 130 F. or any other set temperature during the operation of the tumbler. should this event take place, the thermostat I42 breaks the switch I49 in the manner hitherto 19 explained, de-energizing the thermostatically controlled solenoid circuit 336 and causing the spring 330 to raise the switch blade 326 to a position breaking the low temperature solenoid circuit 3l6 and energizing the high temperature solenoid circuit 324, and simultaneously energizing the red light circuit 844. Inasmuch as the latch releasing solenoid. circuit 224 is connected in series with the low temperature solenoid circuit 3I6, while the temperature is above this level the circuit 224 is permanently broken so that it will be impossible to open the door 98.

As stated hitherto, if there is a failure of current when the temperature is below 138 F., and the low temperature solenoid 296 is energized to tilt the trip rocker 280, the rocker plunger 216 and trip rocker 280 will drop on such failure of current to cause the trip rocker projection 288 to drop on the latch 218 immediately above the pivot 212 which provides a neutral abutment, and the dropping of said projection 288 does not in any way afiect the latch 218 to unlatch it. When, however, the high temperature solenoid 298 is energized, the abutment 288 will be pivoted outwardly so that if the current should fall, it will drop on the outer arm 2' of the latch 210 to pivot the projection 214 upwards out of its socket 266 in the latching pin 252, permitting the spring 262 to urge the latching pin 252 outwards out of its socket 248, permitting the weight I4II to actuate the cutter valve I38 to cause the flre inhibiting fluid to pass from the container I36 to the pipes I32, I34 and I36 within the casing 22, as indicated in dotted lines in Fig. 7.

Figs. 12 and 13 show the high temperature solenoid circuit 324 energized, with the projection 288 tilted to actuate-the latch 216 on failure of current. Fig. 12 illustrates what happensv when a rise in temperature above 138 F. in the'initial normal time interval of tumbler operation. It will be noted, however, that the high temperature solenoid circuit 324 is energized, tilting theprojection 288 in the manner aforesaid to actuate said latch 212, by means of de-energization of the thermostatically controlled circuit 336; permitting raising of the switch blade 326 by the spring 330 and causing energization of the red light circuit 344 to simultaneously light the red light as this circuit is connected in series with the high temperature solenoid circuit 324'. ,Inasmuch, however, as this. takes place during the normal time interval of tumbler operation. the time controlled switch I26 will not as yet have been closed to energize the solenoid circuit I98 to energize the solenoid coil I96 to actuate the connected relay switch blades I86 and 238. It will, therefore. be doubly impossible to complete the circuit 224 to remove the latch I06 from the bolt 88, and due to the fact that the yellow light circuit I86 is still completed by. the combination relay II3 the yellow light II8 will continue to operate.

Fig.'13 illustrates what takes place should the rise in temperature above 138F. take place after the normal time interval of tumbler operation after the closing of the time controlled switch I26 and consequent energization of the relay coil circuit I98: Due to the manner in which the green light circuit I90 is connected to the low temperature solenoid circuit 3I6. it is obvious that it will not come on during this period. The red light circuit 344 being connected in series with the high" temperature solenoid circuit 324 will be energized to cause the red light to be lighted. In the event that the temperature rises above 138 F. either 2.0 during the adjustable period of normal tumbling operation or after the completion of said period,

a the tumbler door keeps automatically closed, and

until the temperature of the air flow is reduced below 138' F. and the tumbler completes its period of normal tumbling operation, it will be impossible to energize the circuit 224 to release the latch I86 from the bolt 88 to permit opening of the door on turning the handle 362 to actuate the cam II4 to close the switch II2. As stated, should the electric current fail or be turned on while the red light is showing, the valve I38 will be tripped open by the weight I 46, flooding the tumblerwith carbon dioxide (CO2) which will positively inhibit fire or explosion, and which, as stated, is harmless to the garments.

It is apparent, therefore, that I have provided the heretofore described novel method of removing residual solvent from materials dry cleaned with an inflammable hydrocarbon solvent and the heretofore described novel drying apparatus with the advantages hitherto explained.

It is understood that my invention is not limited to the specific embodiment shown or method described and that various deviations may be made therefrom without departing from the spirit and scope of the appended claims.

What I claim is:

1. Apparatus for drying, comprising a casing, a garment containing basket movable within said casing, duct means in said casing for passing drying air through said basket including an inlet duct to said basket and an outlet duct from said basket, means to circulate a current of dryin air through said duct means and basket, means to preheat said air prior to passage through said basketfmeans including thermostatic means in said outlet duct immediately adjacent said basket controlled by the temperature of the air in said outlet duct immediately adjacent said basket reduced by the latent heat of evaporation of cleaning fluid in said garments in said basket for controlling said preheating means to maintain the temperature of the air containing cleaning fluid after contact with said garments below a predetermined non-inflammable degree, means to move said basket, means to actuate said air circulating means, ,a signal indicating normal operating movement of said basket and a signal indicating completion of the proper time interval of movement of said basket, timer means and means including means controlled by said timer means settable for adjustably variable time controlled intervals of operation of said timer means for changing signals, means including thermostatic means in said outlet duct controlled by the temperature of air in said outlet duct immediately adjacent said basket operable when the temperature rises above said predetermined degree and signal means actuated by said last means including thermostatic means, for indicating rise of temperature of the air in the outlet duct immesaid predeter- 

